Water-soluble concentrate obtained from liquid lipophilic materials of vegetables orgin and at least two ecologically optimized surfactants

ABSTRACT

The creation of a limpid, stable micro-emulsion from liquid lipophilic materials of vegetable origin, specifically, essential oils, using an ecologically optimized solubilizing agent consisting of a mixture of one ethoxylated vegetable oil and at least one supplemental tensio-active comprising an anionic tensio-active derived from another vegetable oil and/or a non-ionic co-tensio-active. The micro-emulsion retains the original active properties of the essential oils in addition to the specific individual properties of the solubilizing agent or the mixture thereof with the lipophilic vegetable materials. Applications: all the applications of essential oils and those conferred by the addition of the specific tensio-actives.

[0001] The present invention concerns a hydrosoluble concentrate obtained from a new emulsifying or hydrosolubilizing phase and from a compound of liquid lipophilic materials of vegetable origin, specifically, essential oils or vegetable oils.

[0002] Said concentrate is either used directly after dilution with water, or used as an additive or a supplement to various sanitizing, deodorizing, disinfecting, bactericidal, sterilizing, insecticide, biological activator or other product formulations.

[0003] In the field of emulsifiable concentrates containing liquid lipophilic substances, the use of one or more tensio-actives of vegetable origin with non-biodegradable salts of the sulfate, sulfonate, phosphate type is already known, although phosphorates are harmful to the environment.

[0004] Moreover, these preparations result in opaque products that are essentially unstable, making them unsuitable for storage.

[0005] Thus, these products are not suitable for many industrial applications.

[0006] Inventors have devised a hydrosoluble concentrate obtained from a new emulsifying or hydrosolubilizing phase and from a compound of liquid lipophilic materials of vegetable origin, specifically, essential oils or vegetable oils, in concentrate form which can be used immediately after dilution with water.

[0007] The following composition is characteristic of the hydrosoluble or emulsionable concentrate:

[0008] a compound of at least one, but preferably two, liquid lipophilic materials of vegetable origin, specifically essential oils or vegetable oils;

[0009] an emulsifying or hydrosolubilizing mixture containing:

[0010] a non-ionic tensio-active originating from or deriving from a vegetable oil;

[0011] at least one non-ionic co-tensio-active and/or another anionic tensio-active originating from or deriving from another vegetable oil;

[0012] the combination of which with non-hydrosoluble, liquid lipophilic vegetable materials, specifically, essential oils or vegetable oils, renders the latter completely hydrosoluble or emulsifiable, thereby attaining a total stable micro-emulsion type of emulsion after the addition of water.

[0013] The non-ionic tensio-active derived from vegetable oil is preferably an ethoxyl vegetable oil.

[0014] Similarly, the supplemental anionic tensio-active is preferably derived from another ethoxyl vegetable oil. For example, it may consist of a mixture of alkyl ethoxyl carboxyl salts resulting from an ethoxylation and carboxylation reaction on the vegetable oils.

[0015] The present invention results from the five following objectives.

[0016] The first objective is to avoid denaturing the base properties and qualities of the lipophilic materials, specifically, essential oils or vegetable oils.

[0017] The second objective is to furnish a composition with one or more specific properties supplemental to the properties of the liquid lipophilic materials, specifically, the essential oils.

[0018] The third objective is to find an especially simple, quick and effective preparation method for emulsifying liquid lipophilic materials of vegetable origin in an aqueous phase in order to obtain a micro-emulsion which will retain the properties and qualities of the original materials in addition to the properties resulting from mixture with the tensio-actives.

[0019] The fourth objective is to use at least one tensio-active component of vegetable origin in relatively high proportions in relation to the other tensio-active component or components, the components being used in large quantities in relation to the non-hydrosoluble, liquid lipophilic materials of vegetable origin to impart their own characteristics; the relative weight proportions between the emulsifying or hydrosolubilizing phase and the compound of lipophilic materials of vegetable origin, specifically, essential oils, may be in the range of at least 2 to 1.

[0020] The final objective is essentially ecological—to use a low concentration of completely biodegradable vegetable-based substances in a pH-neutral aqueous phase, reflecting absolute and unprecedented concern for environment.

[0021] The principal advantage of the invention consists of obtaining simply, quickly, and with maximum efficiency, using liquid lipophilic materials of vegetable origin, i.e., oils known as essential oils or vegetable oils and merely adding water, completely stable micro-emulsions.

[0022] A non-exhaustive list of other advantages includes the following:

[0023] an aqueous solution with fluid qualities is obtained, which is transparent, isotropic, and completely stable over time throughout a long storage period, even with considerable variations in ambient temperature or changes in physical-chemical usage conditions;

[0024] faithful conservation of the qualities and properties of the liquid lipophilic materials of vegetable origin, specifically essential oils or vegetable oils, enhanced with supplemental properties (bactericides, bacteriostats, fungicides, antiseptics, deodorants which suppress the cause of bad odors, oxygenator, oxidizers or reductase(s), antiparasitics, insecticides, cleaners and degreasers, etc.) thanks to the encapsulation of the essential oils or vegetable oils by the molecules in the emulsifying or hydrosolubilizing phase described;

[0025] a very low degree of ecotoxicity combined with optimum biodegradability, harmless to humans and animals, due to the use of vegetable-based materials and the appropriate encapsulation of the essential oils or vegetable oils.

[0026] In effect, the hydrosolubilizing and emulsifying formulations are biodegradable and the metabolites resulting from the initial decomposition are themselves bio-acceptable, as they are completely biodegradable into natural derivatives. After use, the substance biodegrades in a relatively short period of time from the environmental and ecological point of view.

[0027] Furthermore, the formulations are not toxic to ingest, and non-irritating to skin and eyes.

[0028] the micro-emulsion of essential oils or vegetable essences in aqueous phase has considerable wetting, detergent and cleaning power;

[0029] it is particularly simple, effective and quick to use, requiring no expensive equipment and consuming little energy;

[0030] The invention will be described below by using several examples with indications of the proper weight measurements.

EXAMPLE NO. 1 Detergent-Sanitizing Application

[0031] An emulsifying or hydrosolubilizing phase is prepared in a container made of chemically inert material by mixing the following components under agitation in the proportions listed: ethoxylated ricinus oil from 50 to 70% glycol propylene from 20 to 5% carboxyl ethoxylated alkyl salts from 10 to 45%

[0032] The salts are the result of an ethoxylating and carboxylating reaction on the vegetable oils.

[0033] As a substitute for ricinus oil, any other vegetable oil comprising a free radical (OH) capable of ethoxylation can be used.

[0034] After ripening, this emulsified or hydrosolubilizing mixture is incorporated under agitation into a compound of essential oils in the relative proportion of 5% to 30% essential oils to hydrophilize the non-hydrosoluble vegetable materials.

[0035] This compound includes several essential oils chosen from the group of rosemary, eucalyptus, mint, cinnamon, pine, artemisia, marjoram, and savory essences.

[0036] In order to keep the description complete, an example of the composition by weight is given below: essence of rosemary 15% to 25% essence of eucalyptus  5% to 15% essence of mint 10% to  5% essence of cinnamon  5% to 15% essence of pine 15% to 25% essence of artemisia 40% to 10% essence of marjoram  5% to  3% essence of savory  5% to  2%

[0037] After sufficient agitation, the emulsified concentrate is allowed to rest for 24 hours at ambient temperature, that is, ranging from 150 to 300.

[0038] To obtain a completely stable aqueous solution, the emulsified concentrate is next diluted with water in the proportion of 1% to 45% concentrate to 99% to 55% water.

[0039] To obtain other physical forms, dilution is considerably less, i.e., from 60% to 20%.

[0040] To obtain a flexible gel, the dilution percentage ranges from 1 to 20% water.

[0041] To obtain a semi-liquid paste or a viscous liquid, dilution is increased, ranging from 20 to 30% water.

Application No. 2: Deodorizing Application

[0042] To the following lipophile phase:

[0043] 25% compound of essential oils chosen from among essence of orange, essence of lemon, essence of eucalyptus and essence of mint

[0044] are added, in a stainless steel container, the following emulsifying phase, which has been previously mixed and ripened:

[0045] 63% ethoxylated ricinus oil or any other vegetable oil with a free radical (OH) that can be ethoxylated

[0046] 12% glycol propylene.

[0047] This emulsionable or hydrosoluble concentrate is allowed to rest for about 24 hours at ambient temperature.

[0048] Next, a small quantity of the emulsionable or hydrosoluble concentrate is added under agitation to water, diluting it in the respective proportions of from 0.5 to 5% concentrate per 99.5% to 95% water.

[0049] The deodorizing aqueous solution is immediately ready to use.

[0050] An example of the constituents of the lipophilic phase and their minimal weight proportions is given below: essence of orange at least 40% essence of lemon at least 10% essence of eucalyptus at least  8% essence of mint at least  1%

EXAMPLE NO. 3 Biological Activator Application

[0051] In a stainless steel container, the following vegetable compound is prepared by mixing:

[0052] 20% compound of essential oils chosen from among essence of cypress, savory, pine, clove, mint, eucalyptus, rosemary and thyme

[0053] 10% colza vegetable oil

[0054] Next, the following is added with care, agitating the mixture regularly

[0055] 50% ethoxylated ricinus oil or any other vegetable oil with a free radical (OH) that can be ethoxylated;

[0056] 20% carboxyl ethoxyl alkyl salts resulting from an ethoxylation and carboxylation reaction on vegetable oils.

[0057] This emulsifiable or hydrosoluble concentrate is allowed to rest for about 24 hours at ambient temperature.

[0058] Next, the emulsifiable or hydrosoluble concentrate is added to water under agitation in a sufficient quantity to result in a dilution ratio of 3% to 45% concentrate per 97% to 55% water.

[0059] The fluid aqueous solution with biologically activating properties is ready for use.

[0060] With regard to obtaining different physical forms, the dilution percentages are identical to or nearly the same as those indicated previously.

EXAMPLE NO. 4 Insect Repellant Application

[0061] In a stainless steel container, the following are added to the lipophilic phase:

[0062] 25% compound of essential oils chosen from among essences of camphor, lavender, rosemary, citronella, marigold, eucalyptus, carnation, cedar, mint and natural pyrethrum,

[0063] the next emulsifying phase which will have been previously mixed and allowed to rest for several hours

[0064] 63% ethoxylated ricinus oil or any other vegetable oil with a free radical (OH) that can be ethoxylated;

[0065] 12% glycol propylene.

[0066] This emulsifiable or hydrosoluble concentrate is allowed to rest for about 24 hours at ambient temperature.

[0067] This emulsifiable or hydrosoluble concentrate is next added to water in a dilution ratio of from 1% to 45% concentrate per 99% to 55% water under agitation to obtain a fluid and limpid aqueous solution that repels insects and which is ready for immediate use.

[0068] By way of non-limiting example, the minimum quantities of each of these components is indicated below: essence of eucalyptus at least 8% essence of citronella at least 8% essence of rosemary at least 8% essence of lavender at least 10%  essence of camphor at least 8% essence of pyrethrum at least 1% essence of marigold at least 10%  essence of carnation at least 8% essence of cedar at least 8% essence of mint at least 2%

[0069] Within the realm of this invention, a great number of variations are possible by modifying the composition of the mixture of liquid lipophilic materials of vegetable origin, specifically, essential oils, and the type, the number and proportions of tensio-actives.

[0070] Each example listed above describes dilution with a considerable amount of water. As indicated, a small quantity of water can be added if necessary (for example, from 1 to 25% water) to obtain a gel, or a slightly larger quantity of water (for example from about 20% to 30% water) to obtain a semi-liquid paste. This is merely a matter of changes in physical form. More dilution results in an emulsion (for example, using about 30% to 55% water) or a fluid aqueous solution that is isotropic, transparent and clear (for example, using about 55% to 99% water). 

1. A hydrosoluble or emulsifiable concentrate of liquid lipophilic materials of vegetable origin, specifically essential oils, characterized in that it is obtained by mixing a compound of liquid lipophilic materials of vegetable origin, specifically essential oils, and an emulsifying or hydrosolubilizing phase containing at least two ecologically optimized tensio-actives, at least one of which is a non-ionic tensio-active originating or deriving from a vegetable oil, and at least one supplemental tensio-active comprising an anionic tensio-active originating or deriving from another vegetable oil and/or a non-ionic co-tensio-active, which in combination with the liquid lipophilic materials of vegetable origin, specifically essential oils, renders the latter completely hydrosoluble, allowing either a paste, a micro-emulsion, or a perfectly limpid and stable solution to be obtained when water is added.
 2. A concentrate according to claim 1 characterized in that the non-ionic tensio-active originating or deriving from a vegetable oil is an ethoxylated vegetable oil.
 3. A concentrate according to the preceding claim characterized in that the vegetable oil used is ricinus or any other vegetable oil with a free radical (OH) that can be ethoxylated.
 4. A concentrate according to the preceding claim characterized in that the anionic tensio-active originating from another vegetable oil is derived from an ethoxylated vegetable oil.
 5. A concentrate according to claim 1 characterized in that the supplemental anionic tensio-active is a mixture of alkyl ethoxyl carboxyl salts resulting from an ethoxylation and carboxylation reaction on vegetable oils.
 6. A concentrate according to claim 1 characterized in that the non-ionic co-tensio-active is a polyol or an alcohol.
 7. A concentrate according to the preceding claim characterized in that the non-ionic co-tensio-active is glycol propylene.
 8. A concentrate according to claim 1 characterized in that the relative weight proportions between the emulsifying or hydrosolubilizing phase and the compound of lipophilic materials of vegetable origin, specifically essential oils, are at least 2 to
 1. 9. An elastic gel obtained by diluting the concentrate with water according to one of the preceding claims by adding water in the proportion of 80% to 99% concentrate to 20% to 1% water, respectively.
 10. A semi-liquid paste obtained by diluting the concentrate with water according to one of the preceding claims by adding water in the proportion of 70% to 80% concentrate to 30% to 20% water, respectively.
 11. An emulsion obtained by adding water to the concentrate according to any one of the preceding claims in the proportion of 45% to 70% concentrate to 55% to 30% water, respectively.
 12. A fluid aqueous solution that is transparent and clear obtained by diluting the concentrate with water according to one of the preceding claims by adding water in the proportion of 1% to 45% concentrate to 99% to 55% water, respectively. 